KR102155367B1 - Reductant tank for diesel engine - Google Patents

Abstract

The description relates to a reducing agent tank for construction machinery, wherein the upper inlet is formed protruding from the upper surface of the reducing agent tank, and the lower part extending vertically downward from the inlet is a reducing agent injection pipe located inside the reducing agent tank, and the maximum allowable An O-ring installed on the lower inner circumference of the reducing agent injection pipe so as to correspond to a height corresponding to the injection amount, a guide part installed in parallel with the reducing agent injection pipe on either side of the inner surface of the reducing agent tank, and one side of the guide part It includes a connection part that is connected to rise and descend along the guide part by buoyancy according to the level of the reducing agent, and a stopper installed on the other side of the connection part, and the central axis of the stopper coincides with the central axis of the reducing agent injection pipe so that the level of the reducing agent Accordingly, it is related to configured to open and close the reducing agent injection pipe by the stopper while the stopper is raised and lowered together with the connection part.
According to this, the content described is that when replenishing the reducing agent in the reducing agent tank, the reducing agent is prevented from being injected more than necessary, so that the reducing agent flows back to the outside of the reducing agent tank, or the reducing agent tank by volume expansion while the reducing agent is injected more than necessary into the reducing agent tank. There is an effect that can prevent the damage.

Description

Reductant tank for diesel engine for construction machinery

It relates to a reducing agent tank for construction machinery in which a reducing agent such as urea water is stored for decomposition of nitrogen oxides contained in exhaust gas generated from diesel engines such as construction machinery.

First of all, the following background technology is intended to help understanding the contents of the reducing agent tank for construction machinery to be described later, and the contents mentioned in the background technology need not be concluded as prior art.

Diesel engines are generally used for construction machinery, and these diesel engines generate exhaust gas when they are operated. In particular, when the diesel engine is incompletely burned, less carbon monoxide and hydrocarbons are emitted, while nitrogen oxides (NOx) are relatively large. The sheep are released into the atmosphere.

Therefore, as a device for purifying nitrogen oxides, smoke reduction devices such as DPF (Diesel Particulate Filter), SCR (Selective Catalytic Reduction), LNT (Lean NOx Trap), LNC (Lean NOx catalyst) are used. Selective catalytic reduction) generates ammonia by injecting a reducing agent such as urea water solution into the exhaust gas in front of the catalyst to cause pyrolysis and hydrolysis reactions, and the ammonia generated in this way is converted into nitrogen oxide in the catalyst. It reacts with and reduces it to nitrogen (N2) and water (H2O), which are harmless to the human body.

A device to which such a selective catalytic reduction method is applied is usually installed in an exhaust pipe of an engine to reduce nitrogen oxides in the exhaust gas to nitrogen and water, a reducing agent tank storing a reducing agent such as urea water, and a reducing agent in the reducing agent tank. It may be configured to include a reducing agent spraying device for spraying the exhaust gas in front of the catalyst.

On the other hand, a predetermined amount of reducing agent is stored in the reducing agent tank, and if the reducing agent is insufficient in the reducing agent tank, the user checks through the dashboard of the cab and replenishes the reducing agent inside the reducing agent tank.

However, conventionally, when replenishing the reducing agent inside the reducing agent tank, since the reducing agent tank is made of an opaque material, it is difficult to accurately grasp the degree of replenishment of the reducing agent from the outside, and when the reducing agent is replenished above the standard value, the reducing agent is air discharge pipe. Vent pipe), there was a problem of contaminating surrounding parts.

In addition, when the reducing agent is frozen at a low temperature, its volume increases.In view of this, the amount of reducing agent injected into the reducing agent tank should be injected approximately 10% to 20% less of the maximum capacity, but if more than necessary, the reducing agent is frozen. There is a problem that the reducing agent tank is damaged due to the increase in volume according to the problem.

Therefore, the contents described are to solve the above-described problems, and when replenishing the reducing agent in the reducing agent tank, it is configured to prevent injection of more than an appropriate amount. An object of providing a reducing agent tank for construction machinery is included so as to prevent damage to the reducing agent tank due to an excessive volume expansion of the reducing agent.

The content described according to a preferred embodiment,

In the reducing agent tank, the maximum allowable injection amount and the minimum allowable injection amount of the reducing agent stored therein are set.

The reducing agent injection pipe is formed in the reducing agent tank, and the injection port formed on the upper part of the reducing agent injection pipe is formed to protrude from the upper surface of the reducing agent tank, and the lower part of the reducing agent injection pipe extends vertically from the injection port toward the lower side. It is installed in a certain depth inside.

On the inner side of the reducing agent tank, a guide part is erected in a state parallel to the reducing agent injection pipe, and the upper and lower ends of the guide are fixed to the inner side of the reducing agent tank, respectively, and the intermediate part is separated from the inner side of the reducing agent tank. Is formed.

The guide part is provided with a connection part having a buoyancy function so that one side is connected to the guide part so that it can be lifted up and down along the middle part of the guide part.

A stopper is installed on the opposite side of the connection part, and the stopper is installed so that its central axis coincides with the central axis of the reducing agent injection pipe. When the stopper is raised along with the connection part by buoyancy according to the change of the reducing agent level, the stopper is It is related to being configured to open and close the reducing agent injection pipe while entering the interior.

The content described by another preferred embodiment,

The lower end of the reducing agent injection tube is associated with a height corresponding to the maximum allowable injection volume of the reducing agent tank.

More preferably, the cross-sectional structure of the guide portion is formed in an oval shape, and the connection portion is configured such that the connection portion is not rotated around the guide portion when the connection portion is wrapped up and lowered along the guide portion after being coupled to the guide portion.

More preferably, the cross-sectional structure of the guide portion is formed in a polygonal shape, and the connection portion is configured such that the connection portion is not rotated around the guide portion when the connection portion is wrapped and coupled to the guide portion and then moved up and down along the guide portion.

More preferably, an O-ring is installed along the inner circumference of the lower inner surface of the reducing agent injection pipe, and a part of the inside of the O-ring is recessed and fixed to the inner surface of the reducing agent injection pipe, and a part of the outer part of the O-ring protrudes outside the inner circumference of the reducing agent injection pipe. In this case, the O-ring is related to being installed in the same line with the maximum allowable injection amount.

More preferably, the outer diameter of the cap is formed to be smaller than the inner diameter of the lower part of the reducing agent injection pipe, the lower end of the reducing agent injection pipe is formed below the height corresponding to the maximum allowable injection amount, and the O-ring is formed from the lower end of the reducing agent injection pipe to the upper side. By forming at a spaced point, when the stopper is inserted into the lower end of the reducing agent injection tube, the reducing agent injection tube is partially closed according to the difference between the outer diameter of the stopper and the inner diameter of the reducing agent injection tube, and then the reducing agent is injected when the stopper rises further and contacts the O-ring. It relates to the tube being configured to be completely closed by the closure.

More preferably, the lower end of the reducing agent injection pipe is formed at a height corresponding to the maximum allowable injection amount, and the O-ring is formed at the lower end of the reducing agent injection pipe, and when the stopper is inserted into the lower end of the reducing agent injection pipe, the reducing agent is injected while contacting the O-ring. It relates to the tube being configured to be completely closed by the closure.

More preferably, a level sensor capable of measuring the level of the reducing agent is installed inside the reducing agent tank, the signal detected by the level sensor is configured to be transmitted to the ECU, and a warning sound generating device is installed outside the reducing agent tank. After connecting with the ECU, when the level of the reducing agent approaches the maximum allowable injection amount, the level sensor detects it and sends a signal to the ECU, and the ECU activates the warning sound generating device to increase the level of the reducing agent through the warning sound generated from the warning sound generating device. It relates to a configuration that allows the operator to accurately recognize that the permissible injection volume has been reached.

More preferably, when the level of the reducing agent stored in the reducing agent tank is lower than the minimum allowable injection amount, the ECU that has received the signal from the level sensor operates the warning sound generating device to generate the warning sound.

The reducing agent tank for construction machinery according to the description has the following effects.

In other words, when the reducing agent is injected into the reducing agent tank, the maximum allowable injection amount of the reducing agent in the reducing agent injection process is blocked as the reducing agent injection pipe of the reducing agent tank is closed when the reducing agent reaches the maximum allowable injection amount within the appropriate range. There is an effect of resolving a problem in which the reducing agent tank is damaged by flowing backwards to the outside of the reducing agent tank or excessive volume expansion of the reducing agent.

In addition, since the effects of the contents described are naturally exerted by the composition of the contents described regardless of whether or not the inventor recognizes them, the above-described effects are only some effects according to the contents described, and all effects that the inventors have identified or existed are described. It should not be admitted to be.

In addition, the effect of the described content will have to be further grasped by the overall description of the specification, and even if it is not described in an explicit sentence, a person having ordinary knowledge in the technical field to which the described content belongs will have such an effect through this specification. If it is an effect that can be recognized, it should be seen as the effect described in this specification.

1 is a cross-sectional view of a main part of a reducing agent tank according to an embodiment of the description.
2 is a perspective view of a main part illustrating a stopper for opening and closing a reducing agent injection pipe of a reducing agent tank according to an embodiment of the description.
3A is a cross-sectional view of a main part of a reducing agent tank provided with a stopper according to another embodiment of the description.
3B is a cross-sectional view of a main part of a reducing agent tank provided with a stopper according to another embodiment of the description.
4A and 4B are a process in which an alarm sound generator is provided on one side of the reducing agent tank according to another embodiment of the description so that an alarm sound is generated when the reducing agent exceeds the maximum allowable injection amount or falls below the minimum allowable injection amount in the reducing agent injection process. Is a flow chart illustrating
5A, 5B, and 5C are cross-sectional views illustrating a step-by-step process in which a reducing agent injection pipe installed in a reducing agent tank is closed by a stopper according to an embodiment of the description.

When described in detail based on the accompanying drawings, preferred embodiments of the content described below are as follows.

This is for explaining in detail enough that a person of ordinary skill in the art to which the described content belongs can easily implement the described content, and this does not mean that the technical spirit and scope of the described content are limited.

In addition, the size or shape of the constituent elements shown in the drawings may be exaggerated for clarity and convenience of description, and terms specially defined in consideration of the composition and operation of the described content may vary according to the intention or custom of users and operators. Can, and definitions of these terms should be made based on the contents throughout the present specification.

First, the configuration of a reducing agent tank for construction machinery according to an embodiment of the description includes a reducing agent tank in which the reducing agent is stored, a reducing agent injection pipe for injecting a reducing agent into the reducing agent tank, and a reducing agent injection pipe installed inside the It is a component comprising an O-ring, a guide part installed inside the reducing agent tank, a connection part connected to the guide part, and a stopper that is installed in the connection part and moves up and down along the guide part by the level of the reducing agent to open and close the reducing agent injection pipe. It can be broadly divided, and will be described in detail through FIG. 1 exemplified below for each component.

The reducing agent tank 100,

It is composed of a shape of a housing for storing a certain amount of reducing agent inside, and the maximum allowable injection amount 110 and the minimum allowable injection amount 120 for determining the appropriate amount of reducing agent are determined, and an air discharge pipe passing through the inside and outside on one side of the upper surface ( (Not shown in the drawings) is provided.

The reducing agent injection pipe 130,

As used for injecting a reducing agent into the inside of the reducing agent tank 100 described above, the upper portion of the reducing agent injection pipe 130 is configured with an injection port 131 to protrude outside the upper surface of the reducing agent tank 100, such a reducing agent The lower portion extending vertically from the upper portion of the injection pipe 130 toward the lower side is located inside the reducing agent tank 100.

O-ring 132,

In the lower part of the reducing agent injection pipe 130, an annular fitting groove (not shown in the drawing) is formed along the inner circumference at a point of the inner circumference spaced upward from the end, and is installed in such a fitting groove. When the O-ring 132 is installed in the lower inner circumference of the 130, the stopper 160, which will be described later, is caught by the O-ring 132 when it rises from the inside through the lower portion of the reducing agent injection pipe 130 to prevent further rise. And, when the stopper 160 is in contact with the O-ring 132, an airtight action occurs, so that the reducing agent injected through the reducing agent injection pipe 130 can no longer be injected into the reducing agent tank 100 due to the stopper 160. There will be no.

Preferably, the installation position of the O-ring 132 is configured to be located on the same line as the maximum allowable injection amount 110 of the reducing agent stored in the reducing agent tank 100, so that the O-ring 132 is located inside the reducing agent injection pipe 130. The position of the stopper 160 for closing the reducing agent injection pipe 130 through the contact surface does not exceed the line of the maximum allowable injection amount 110.

The O-ring 132 is preferably made of a material having an elastic material such as rubber or silicone, but a ring-shaped locking hole that is rigid and fits into the fitting groove and protrudes from the inner circumference of the reducing agent injection pipe 130 may be used.

The guide part 140,

It is installed on the inner side of the above-described reducing agent tank 100 to guide the connection part 150 to be raised and lowered in the vertical direction together with the stopper 160 to be described later, and the guide part 140 is installed vertically and At this time, the upper and lower ends of the guide unit 140 are fixed to the inner side of the reducing agent tank 100, respectively, and the intermediate portion is formed to be spaced apart from the inner side of the reducing agent tank 100.

The intermediate portion of the guide part 140 is formed parallel to the reducing agent injection pipe 130 so as to be horizontal with the reducing agent injection pipe 130 described above. This is a stopper unit 160 to be described later is elevated along the guide unit 140 in a state where it is installed on the guide unit 140 through the connection unit 150, and at this time, the stopper unit that is raised and lowered along the guide unit 140 This is to ensure that 160 can be accurately in and out of the inside and outside through the lower portion of the reducing agent injection pipe 130.

The connection part 150,

As for connecting the above-described guide part 140 and the stopper 160 to be described later with each other, one side of the connection part 150 is movably fixed to the guide part 140, and the other extending from one side to a certain length On the side, a stopper 160 to be described later is fixed.

The connection part 150 is made of a material having buoyancy, and is guided by the guide part 140 according to the level of the reducing agent so that it can be lifted up and down.

In connecting the connection part 150 and the guide part 140, when the connection part connected to the guide part 140 is raised and lowered along the middle part of the guide part 140, the connection part 150 rotates around the rotation center of the guide part 140 In this case, the stopper 160 installed on the other side of the connection part 150 cannot be accurately entered into the reducing agent injection pipe 130.

Therefore, when the cross-sectional structure of the guide part 140 is configured in an elliptical shape as shown in FIG. 2 and the connection part 150 is wrapped around and connected to the elliptical guide part 140, the connection part 150 becomes the guide part 140 It is possible to prevent the phenomenon of being rotated around the guide unit 140 when it is elevated along the line.

The cross-sectional structure of the guide part 140 need not be limited to an elliptical shape, and may be configured as a non-circular cross-sectional structure including a polygon.

The stopper 160,

It is installed on the other side of the above-described connection part 150 and goes up and down along the guide part 140 along with the connection part 150 to open and close the reducing agent injection pipe 130 by entering and leaving the reducing agent injection pipe 130. ) When the stopper 160 is installed on the other side of the stopper 160, the central axis of the stopper 160 is configured to coincide with the central axis of the reducing agent injection tube 130, and the shape of the stopper 160 is a reducing agent injection tube According to the configuration corresponding to the inner shape of 130, when the stopper 160 is fitted into the reducing agent injection tube 130, the outer circumference of the closure 160 is close to the inner circumference of the reducing agent injection tube 130. It is put in the state.

The outer diameter of the stopper 160 is preferably configured to be 1mm smaller than the inner diameter of the reducing agent injection pipe 130, but the difference between the outer diameter of the stopper 160 and the inner diameter of the reducing agent injection pipe 130 need not be limited to 1mm, The outer diameter of the stopper 160 may not be the same as the inner diameter of the reducing agent injection pipe 130 and may be larger than the inner diameter of the O-ring 132 installed around the inner circumference of the reducing agent injection pipe 130.

The stopper 160 may have a function of buoyancy instead of the connection unit 150, and may have a function of buoyancy together with the connection unit 150.

In the illustrated FIGS. 1 and 2, as the reducing agent injection pipe 130 is illustrated in a circular shape, the stopper 160 is also formed in a circular plate shape.

Therefore, the lower part of the reducing agent injection pipe 130 extends in a vertical direction toward the lower side from the injection port 131, and the guide part 140 is parallel to the reducing agent injection pipe 130, and As the central axis is configured to coincide with the central axis of the stopper 160, the stopper 160 guides the guide part 140 together with the connection part 150 according to the level of the reducing agent stored in the reducing agent tank 100. When the water level of the reducing agent reaches the maximum allowable injection amount 110, the stopper 160 is accurately inserted into the inside of the reducing agent injection pipe 130 and is in the same line with the maximum allowable injection amount 110. It is in contact with the O-ring 132 located in to close the reducing agent injection pipe 130.

And when the level of the reducing agent stored in the reducing agent tank 100 is lowered from the maximum allowable injection amount 110, the stopper 160 together with the connection unit 150 descends according to the level of the reducing agent, and thus from the reducing agent injection pipe 130. As the stopper 160 is separated, the reducing agent injection pipe 130 is opened.

On the other hand, when the stopper 160 opens and closes the reducing agent injection pipe 130, an opening and closing action occurs due to a contact surface between the stopper 160 and the O-ring 132 provided inside the reducing agent injection pipe 130. In this case, when the O-ring 132 is deformed and damaged, the contact surface between the cap 160 and the O-ring 132 may not be accurately formed, so that the cap 160 and the O-ring 132 may not maintain accurate airtightness. .

Therefore, in another embodiment of the stopper 160, if the outer diameter of the stopper 160a is formed larger than the lower inner diameter of the reducing agent injection pipe 130, as illustrated in FIG. 3A, the O-ring inside the reducing agent injection pipe 130 The lower part of the reducing agent injection pipe 130 may be closed through the upper surface of the stopper 160a rising by buoyancy according to the level of the reducing agent without the need to install 132, and at this time, the closing point of the reducing agent injection pipe 130 It is preferable to configure the lower end of the reducing agent injection pipe 130 to be in the same line with the maximum allowable injection amount 110 so that the maximum allowable injection amount 110 and the lower end may be aligned with the maximum allowable injection amount 110.

At this time, the surface of the stopper 160a is made of a soft soft material having elasticity, so that the impact is reduced when the stopper 160a contacts the lower portion of the reducing agent injection tube 130, as well as the reducing agent injection tube 130 It is also possible to increase the airtight performance by being pressed against the surface of the stopper 160a and in contact with it.

In addition, in another embodiment of the stopper 160, as illustrated in FIG. 3b, the upper outer diameter of the stopper 160b is formed smaller than the inner diameter of the reducing agent injection pipe 130, and the lower outer diameter of the stopper 160b is When configured in a conical shape that is larger than the inner diameter of the reducing agent injection pipe 130, the upper part of the stopper 160b that rises according to the level of the reducing agent without the need to install the O-ring 132 inside the reducing agent injection pipe 130 As is inserted into the inside of the reducing agent injection pipe 130, the reducing agent injection pipe 130 can be closed, and even in this case, the lower end of the reducing agent injection pipe 130 is configured to be in line with the maximum allowable injection amount 110 This is desirable.

In this way, when the caps 160a and 160b are configured, even if the central axis of the reducing agent injection pipe 130 and the central axis of the caps 160a and 160b do not match exactly, the caps within a range that does not cause a large error (160a) (160b) has the effect of accurately closing the reducing agent injection pipe (130).

In addition, preferably, a level sensor (not shown in the drawing) is installed inside the reducing agent tank 100, and this level sensor is connected to a signal box (not shown in the drawing) located outside the reducing agent tank 100, The signal box is connected to an Electric Control Unit (ECU) (not shown in the drawing), and when the level of the reducing agent stored in the reducing agent tank 100 approaches the maximum allowable injection amount 110 or the minimum allowable injection amount 120, the level sensor After detecting the water level, the signal is judged by the ECU.

Therefore, by installing a warning sound generating device (not shown in the drawing) outside of the reducing agent tank 100 and connecting it to the ECU, the level of the reducing agent is close to the maximum allowable injection amount 110 or lower than the minimum allowable injection amount 120. When this occurs, the level sensor detects this and sends a signal to the signal box and the ECU, and the ECU operates the warning sound generator so that the operator can receive information about the level of the reducing agent through the warning sound generated through the warning sound generator. I did it.

This is when the reducing agent injection pipe 130 is closed by the above-described stopper 160, 160a, 160b to block the injection of the reducing agent, when the stopper 160, 160a, 160b is not correctly operated As a secondary safety device, it is possible to more safely and accurately inject the reducing agent into the reducing agent tank 100.

4A and 4B are flow charts illustrating the operation of the warning sound generating device through the level sensor and the ECU.

Looking at the process of opening and closing the reducing agent injection pipe of the reducing agent tank for construction machinery according to an embodiment of the described content as described above is as follows.

That is, as illustrated in FIG. 5A, when the water level of the reducing agent tank 100 is low, the stopper 160 is positioned below the guide part 140 along with the connection part 150 according to the level of the reducing agent. When the reducing agent is injected into the tank 100, the level of the reducing agent gradually increases as shown in FIG. 5B, and the stopper 160 moves upward along the guide part 140 by buoyancy along with the connection part 150.

Thereafter, as shown in FIG. 5C, when the level of the reducing agent reaches the maximum allowable injection amount 110, the stopper 160, which was elevated along the guide unit 140, is inserted into the reducing agent injection pipe 130, While in contact with the O-ring 132 provided inside, the reducing agent injection pipe 130 is closed.

Therefore, since the reducing agent can no longer be injected into the reducing agent tank 100 as the reducing agent injection pipe 130 is closed, it is possible to prevent a phenomenon in which a large amount is injected more than necessary during the process of injecting the reducing agent into the reducing agent tank 100. will be.

In the detailed description of the content as described above, a specific embodiment has been described, but it goes without saying that various modifications may be made without departing from the scope of the described content. Therefore, the scope of the contents described should not be limited to the described embodiments and should not be defined, as well as the claims to be described later, as well as those equivalents to the claims.

100: reducing agent tank 110: maximum allowable injection amount
120: minimum allowable injection volume 130: reducing agent injection pipe
131: injection port 132: O-ring
140: guide part 150: connection part
160, 160a, 160b: stopper

Claims (9)

delete delete In the reducing agent tank for construction machinery,
The upper injection port is formed to protrude from the outside of the reducing agent tank, and the lower part extending downward from the injection port is a reducing agent injection pipe located inside the reducing agent tank;
A guide part installed on either side of the inner surface of the reducing agent tank;
A connection part having one side connected to the guide part to be elevated along the guide part by buoyancy according to the level of the reducing agent; And
A stopper installed on the other side of the connection part is included, and the stopper part is configured to be opened and closed by the stopper part while the stopper part is raised and lowered together with the connection part according to the level of the reducing agent,
The guide portion has an elliptical cross-sectional structure, and one side of the connection portion is wrapped around the outer circumference of the guide portion and coupled to the reducing agent tank for construction machinery.
In the reducing agent tank for construction machinery,
The upper injection port is formed to protrude from the outside of the reducing agent tank, and the lower part extending downward from the injection port is a reducing agent injection pipe located inside the reducing agent tank;
A guide part installed on either side of the inner surface of the reducing agent tank;
A connection part having one side connected to the guide part to be elevated along the guide part by buoyancy according to the level of the reducing agent; And
A stopper installed on the other side of the connection part is included, and the stopper part is configured to be opened and closed by the stopper part while the stopper part is raised and lowered together with the connection part according to the level of the reducing agent,
The guide part has a polygonal cross-sectional structure, and one side of the connection part is wrapped around the outer circumference of the guide part and coupled to the reducing agent tank for construction machinery.
In the reducing agent tank for construction machinery,
The upper injection port is formed to protrude from the outside of the reducing agent tank, and the lower part extending downward from the injection port is a reducing agent injection pipe located inside the reducing agent tank;
A guide part installed on either side of the inner surface of the reducing agent tank;
A connection part having one side connected to the guide part to be elevated along the guide part by buoyancy according to the level of the reducing agent; And
A stopper installed on the other side of the connection part is included, and the stopper part is configured to be opened and closed by the stopper part while the stopper part is raised and lowered together with the connection part according to the level of the reducing agent,
A reducing agent tank for a construction machine, characterized in that an O-ring is installed at a height corresponding to a height of the maximum allowable injection amount of the reducing agent tank at a lower inner circumference of the reducing agent injection pipe.
The method of claim 5,
The outer diameter of the stopper is formed smaller than the lower inner diameter of the reducing agent injection pipe, the lower end of the reducing agent injection pipe is formed below a height corresponding to the maximum allowable injection amount, and the O-ring is upward from the lower end of the reducing agent injection pipe. Construction characterized in that the reducing agent injection tube is partially closed when the stopper is formed at one spaced apart and is inserted into the lower end of the reducing agent injection tube, and the reducing agent injection tube is completely closed when the stopper rises and contacts the O-ring. Reductant tank for machinery. The method of claim 5,
The lower end of the reducing agent injection pipe is formed at a height corresponding to the maximum allowable injection amount of the reducing agent tank, and the O-ring is formed at the lower end of the reducing agent injection pipe, so that the stopper is inserted into the lower end of the reducing agent injection pipe and contacts the O-ring. A reducing agent tank for construction machinery, characterized in that the reducing agent injection pipe is configured to be completely closed.
The method according to any one of claims 3 to 5,
A level sensor capable of measuring the level of the reducing agent is installed inside the reducing agent tank, and a warning sound generating device connected to the ECU receiving the signal from the level sensor is installed on either side of the reducing agent tank so that the level of the reducing agent is the maximum allowable injection amount. Reductant tank for construction machinery, characterized in that the ECU receiving a signal from the level sensor operates a warning sound generator to generate a warning sound.
The method of claim 8,
When the level of the reducing agent stored in the reducing agent tank is lower than the minimum allowable injection amount, the ECU, which has received a signal from the level sensor, operates a warning sound generator to generate a warning sound.

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